Abstract
The article provides a system analysis of intelligence. Much attention is given to a hypothetic system essence of self-organization of neuron groups in brain. It is dealt with properties of abstract representation of reasoning based on multi-agent recursive cognitive architectures. The work introduces an apparatus of multi-agent existential mappings (functions) which allow one to describe the processes of self-organization in cognitive architectures relied on dynamic formation of “soft connections” between neuron agents. Attempts are made to analyze future developments of such functions in order to build powerful cognitive architectures, solve hard combinatorial problems and create new mathematical objects.
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Russell, S.J., Norvig, P.: Artificial intelligence: a modern approach. Pearson, Boston (2010)
Kureichik, V.V., Kureichik, V.M., Rodzin, S.I.: The theory of evolutionary computation (in Russian). Fizmatlit, Moscow (2012)
Gazzaniga, M.S.: Conversations in the cognitive neurosciences. The MIT Press, Cambridge (1999)
Haikonen, P.O.A.: Consciousness and quest for sentient robots. In: Proceedings of the Third Annual Meeting of the BICA Society, in Advances in Intelligent Systems and Computing series, pp. 19–27. Springer (2012)
Minsky, M.: The society of mind. Simon and Schuster, New York (1988)
Newell, A.: Unified theories of cognition. Harvard University Press, Cambridge (1990)
Meyer, J.A., Wilson, S.W.: From animals to animats. In: Proceedings of the First International Conference on Simulation of Adaptive Behavior (1990)
Wiener, N.: Cybernetics: or control and communication in the animal and the machine. MIT Press, Cambridge (1948)
Prigozhin, I., Nicolis, G.: Self-organization in nonequilibrium systems: from dissipative structures to the orderliness through fluctuations (in Russian). Mir, Moscow (1979)
Ashby, W.R.: Design for a brain; the origin of adaptive behavior. Wiley, New York (1960)
Wooldridge, M.: An introduction to multiagent systems. Wiley, Chichester (2002)
Nagoev, Z.V.: Intellectics or thinking in alive and artificial systems (in Russian). KBSC RAS, Nalchik (2013)
Langton, C.: Artificial life. Addison-Wesley, Redwood City (1992)
Ferber, J., Jacopin, E.: The framework of eco-problem solving. In: Decentralized Artificial Intelligence II. Amsterdam: Elsevier North-Holland (1991)
Davis, R., Smith, R.: Negotiation as a metaphor for distributed problem solving. In: Artificial Intelligence, pp. 63–109 (1983)
Hewitt C.: Viewing Control Structures as Patterns of Message Passing. In: Artificial Intelligence. pp. 323– 364 (1977)
Nagoev, Z.V.: Algorithm of the plastic substrate ontoneyro morfogenesis for the proactive virtual agent (in Russian). In: Problem of the Problems of Informatization of the Society, pp. 108–110 (2008)
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Researched with the financial support by RFBR grants №№ 13-01-00929, 15-01-05844, 15-07-08309.
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Nagoev, Z., Nagoeva, O., Tokmakova, D. (2016). System Essence of Intelligence and Multi-agent Existential Mappings. In: Abraham, A., Han, S., Al-Sharhan, S., Liu, H. (eds) Hybrid Intelligent Systems. HIS 2016. Advances in Intelligent Systems and Computing, vol 420. Springer, Cham. https://doi.org/10.1007/978-3-319-27221-4_6
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DOI: https://doi.org/10.1007/978-3-319-27221-4_6
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